Project description:We have been characterizing monoclonal antibodies against Norovirus (Norwalk-like virus). In the course of our study, two monoclonal antibodies generated against Norovirus genogroup II capsid protein were found to react not only to genogroup II but also to genogroup I recombinant capsid proteins. In addition, we showed that these two monoclonal antibodies reacted to a 40-amino-acid-fragment located close to the N-terminal region of genogroup II Norovirus. Similar reactivity was observed with the equivalent region of genogroup I Norovirus. In this study, we confirmed that the epitopes of the two monoclonal antibodies existed within an 11-amino-acid peptide. To obtain an idea of the reactive ranges of the two monoclonal antibodies toward different strains of Norovirus, their reactivities were investigated using 16 types of peptide constructed according to the data in GenBank and 8 recombinant capsid proteins (7 whole capsid proteins and 1 short [80-amino-acid] protein fragment). A characteristic broad reactivity of the two monoclonal antibodies is clearly shown by the results of this study. Thus, these monoclonal antibodies could be useful tools for detecting a broad range of Norovirus strains.

Project description:Passive immunoprophylaxis or immunotherapy with norovirus-neutralizing monoclonal antibodies (MAbs) could be a useful treatment for high-risk populations, including infants and young children, the elderly, and certain patients who are debilitated or immunocompromised. In order to obtain antinorovirus MAbs with therapeutic potential, we stimulated a strong adaptive immune response in chimpanzees to the prototype norovirus strain Norwalk virus (NV) (genogroup I.1). A combinatorial phage Fab display library derived from mRNA of the chimpanzees' bone marrow was prepared, and four distinct Fabs reactive with Norwalk recombinant virus-like particles (rVLPs) were recovered, with estimated binding affinities in the subnanomolar range. Mapping studies showed that the four Fabs recognized three different conformational epitopes in the protruding (P) domain of NV VP1, the major capsid protein. The epitope of one of the Fabs, G4, was further mapped to a specific site involving a key amino acid residue, Gly365. One additional specific Fab (F11) was recovered months later from immortalized memory B cells and partially characterized. The anti-NV Fabs were converted into full-length IgG (MAbs) with human γ1 heavy chain constant regions. The anti-NV MAbs were tested in the two available surrogate assays for Norwalk virus neutralization, which showed that the MAbs could block carbohydrate binding and inhibit hemagglutination by NV rVLP. By mixing a single MAb with live Norwalk virus prior to challenge, MAbs D8 and B7 neutralized the virus and prevented infection in a chimpanzee. Because chimpanzee immunoglobulins are virtually identical to human immunoglobulins, these chimpanzee anticapsid MAbs may have a clinical application.

Project description:Investigation on norovirus outbreaks in California in 2012-2019

Project description:Temporal variation of Norovirus GII in oysters

Project description:Intra-host genetic diversity of NoV

Project description:Noroviruses in sewage

Project description:Development and application of NGS toward detection of norovirus from celery

Project description:Norovirus diversity in family members in Peru

Project description:Norovirus in municipal wastewater

Project description:Background and Aims:? Isolation and analysis of spermatogenesis-specific genes provide important information for elucidating the mechanisms of human infertility. The aim of the present study was to suggest an effective strategy for the comprehensive isolation of novel genes associated with spermatogenesis in mice. Methods:? To isolate novel testis-specific genes associated with meiosis in mice, we constructed a mouse pachytene spermatocyte-enriched cDNA library by the centrifugal elutriation method, and sequenced 120 cDNA clones isolated from the cDNA library. A basic local alignment search tool (BLAST) search was carried out on the cDNA clones to find novel genes and then a detailed expression analysis was carried out by Northern blot hybridization and in situ hybridization. Results:? Of the 120 cDNA clones, 35 clones (29%) were novel and 18 clones (15%) were expressed only in the testis. The expression patterns of seven novel testis-specific clones were examined on the testis sections. Three clones were expressed in spermatocytes and other germ cells, and two clones were exclusively expressed in spermatocytes. Amino acid sequences of seven novel testis-specific clones were deduced from their nucleotide sequences, suggesting that two of them contain known functional repeat structures. Conclusions:? This method provides a powerful strategy to isolate novel testis-specific genes efficiently. (Reprod Med Biol 2005; 4: 231-237).